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Contributions reporting on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices with applications to Genomics and Proteomics. Topics include gene expression profiling utilizing microarray technology; imaging and sensing for gene detection and use in DNA analysis; and coverage of advanced microfluidic devices and the Humane Genome Project.
Annotation Volume 4 is a balanced review of key aspects of BioMEMS sensors, including (i) BioMEMS sensors and materials, (ii) means of manipulating biological entities at the microscale, and (iii) micro-fluidics and characterization. These three sections provide a succinct review of important topics within one volume of this series.
blends materials, fabrication, and structure issues of developing nanobio devices in a single volume. treats major nanobio application areas such as drug delivery, molecular diagnostics, and imaging. chapters written by the leading researchers in the field.
Offers a review of key aspects of BioMEMS sensors, including BioMEMS sensors and materials, means of manipulating biological entities at the microscale, and micro-fluidics and characterization.
Nanotechnologies are being applied to the biotechnology area, especially in the area of nano material synthesis. Until recently, there has been little research into how to implement nano/bio materials into the device level. “Nano and Bio Electronics Packaging” discusses how nanofabrication techniques can be used to customize packaging for nano devices with applications to biological and biomedical research and products. Covering such topics as nano bio sensing electronics, bio device packaging, NEMs for Bio Devices and much more.
The application of Micro Electro Mechanical Systems (MEMS) in the biomedical field is leading to a new generation of medical devices. MEMS for biomedical applications reviews the wealth of recent research on fabrication technologies and applications of this exciting technology.The book is divided into four parts: Part one introduces the fundamentals of MEMS for biomedical applications, exploring the microfabrication of polymers and reviewing sensor and actuator mechanisms. Part two describes applications of MEMS for biomedical sensing and diagnostic applications. MEMS for in vivo sensing and electrical impedance spectroscopy are investigated, along with ultrasonic transducers, and lab-on-chip devices. MEMS for tissue engineering and clinical applications are the focus of part three, which considers cell culture and tissue scaffolding devices, BioMEMS for drug delivery and minimally invasive medical procedures. Finally, part four reviews emerging biomedical applications of MEMS, from implantable neuroprobes and ocular implants to cellular microinjection and hybrid MEMS.With its distinguished editors and international team of expert contributors, MEMS for biomedical applications provides an authoritative review for scientists and manufacturers involved in the design and development of medical devices as well as clinicians using this important technology. - Reviews the wealth of recent research on fabrication technologies and applications of Micro Electro Mechanical Systems (MEMS) in the biomedical field - Introduces the fundamentals of MEMS for biomedical applications, exploring the microfabrication of polymers and reviewing sensor and actuator mechanisms - Considers MEMS for biomedical sensing and diagnostic applications, along with MEMS for in vivo sensing and electrical impedance spectroscopy
Poised to dramatically impact human health, biomedical microsystems (bioMEMS) technologies incorporate various aspects from materials science, biology, chemistry, physics, medicine, and engineering. Reflecting the highly interdisciplinary nature of this area, Biomedical Microsystems covers the fundamentals of miniaturization, biomaterials, microfabrication, and nanotechnology, along with relevant applications. Written by an active researcher who was recently named one of Technology Review’s Young Innovators Under 35, the book begins with an introduction to the benefits of miniaturization. It then introduces materials, fabrication technology, and the necessary components of all bioMEMS. The author also covers fundamental principles and building blocks, including microfluidic concepts, lab-on-a-chip systems, and sensing and detection methods. The final chapters explore several important applications of bioMEMS, such as microdialysis, catheter-based sensors, MEMS implants, neural probes, and tissue engineering. For readers with a limited background in MEMS and bioMEMS, this book provides a practical introduction to the technology used to make these devices, the principles that govern their operation, and examples of their application. It offers a starting point for understanding advanced topics and encourages readers to begin to formulate their own ideas about the design of novel bioMEMS. A solutions manual is available for instructors who want to convert this reference to classroom use.
The world is on the threshold of a revolution that will change medicine and how patients are treated forever. Bringing together the creative talents of electrical, mechanical, optical and chemical engineers, materials specialists, clinical-laboratory scientists, and physicians, the science of biomedical microelectromechanical systems (bioMEMS) promises to deliver sensitive, selective, fast, low cost, less invasive, and more robust methods for diagnostics, individualized treatment, and novel drug delivery. This book is an introduction to this multidisciplinary technology and the current state of micromedical devices in use today. The first text of its kind dedicated to bioMEMS training. Fundamentals of BioMEMS and Medical Microdevices is Suitable for a single semester course for senior and graduate-level students, or as an introduction to others interested or already working in the field.
The frontiers of microtechnology and nanotechnology are changing the face of medicine through the efforts of researchers to build biomedical microelectromechanical systems, or bioMEMS - tiny working machines so small, they measure only a few millionths of a meter across. BIOMEMS AND BIOMEDICAL NANOTECHNOLOGY, edited by Mauro Ferrari, comprises the first comprehensive reference devoted to all aspects of research in the diagnostic and therapeutic applications of Micro-Electro-Mechanical Systems (MEMS), microfabrication, and nanotechnology. Contributions report on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices. General subjects treated include the design, characterization, testing, modeling and clinical validation of microfabricated systems and their integration on-chip and in larger functional units. Intended to be accessible to professionals and researchers from both the center of this fast-developing technology and adjacent fields, BIOMEMS AND BIOMEDICAL NANOTECHNOLOGY delivers a valuable knowledge base of key research and applications articles from acknowledged experts on an international scope. Each volume is very well illustrated with many figures appearing in color. This major reference includes contributions from world renowned experts in the field and consists of four volumes: Volume I: BIOMEDICAL AND BIOLOGICAL NANOTECHNOLOGY (Volume Editors, Abraham Lee and James Lee) - focuses on synthetic nanodevices and the synthesis of nanomaterials and the generation of nanoscale features. The nanomaterials include polymeric microspheres and nanostructures, carbon nanotubes, silicon, silicon dioxide, and iron oxide. There is also a chapter on the characterization of critical nanostructures for bio applications such as nanochannels and nanopores. The second part involves hybrid synthetic-biomolecular nanodevices that utilize the self assembly properties of both biomolecules and synthetic materials. Volume II: MICRO/NANO TECHNOLOGY FOR GENOMICS AND PROTEOMICS (Volume Editors, Mihrimah Ozkan and Michael Heller) - reports on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices with applications to Genomics and Proteomics. Topics include gene expression profiling utilizing microarray technology; imaging and sensing for gene detection and use in DNA analysis, and coverage of advanced microfluidic devices. Volume III: THERAPEUTIC MICRO/NANOTECHNOLOGY (Volume Editors, Tejal Desai and Sangeeta Bhatia) - treats the emerging area of therapeutic micro- and nanotechnology. Subjects covered include: cell-based therapeutics, regenerative medicine - merging cells with micro- and nanosystems, and integrating MEMS with cells and tissues; Drug delivery - intravascular nanoparticles for drug targeting and nonvascular delivery (implantable, oral, inhalable); molecular surface engineering for the biological interface, biomolecule patterning and cell patterning. Volume IV: BIOMOLECULAR SENSING, PROCESSING AND ANALYSIS (Volume Editors, Rashid Bashir and Steve Wereley) - is a balanced review of key aspects of BioMEMS sensors, including (i) BioMEMS sensors and materials, (ii) means of manipulating biological entities at the microscale, and (iii) micro-fluidics and characterization.
The entire scope of the BioMEMS field-at your fingertipsHelping to educate the new generation of engineers and biologists, Introduction to BioMEMS explains how certain problems in biology and medicine benefit from and often require the miniaturization of devices. The book covers the whole breadth of this dynamic field, including classical microfabr